Ethylenethiourea degradation - ACS Publications - American

tumorigenic in mice (Innes et al., 1969), has been found to be a decomposition product of and contaminant in these fungicides (Czegledi-Janko and Holl...
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ETHYLENETHIOUREA DEGRADATION

Ethylenethiourea Degradation Philip A. Cruickshank* and Harold C. Jarrow ~~~

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Ultraviolet irradiation (above 285 nm) of ethylenethiourea (ETU) on a solid substrate such as silica gel affords 2-imidazolidone as the major identifiable product. Several other products are formed, of which only bis(imidazo1in-2-yl) sulfide has been identified. The 2-imidazolidone does not appear to undergo further degradation under The ethylenebisdithiocarbamates constitute an important class of fungicides widely used in current agricultural practice. Ethylenethiourea (ETU), recently described as tumorigenic in mice (Innes et al., 1969), has been found to be a decomposition product of and contaminant in these fungicides (Czegledi-Janko and Hollo, 1967; Fishbein and Fawkes, 1965; Lopatecki and Newton, 1952; Petrosini e t al., 1962). Because of its tumorigenic properties, it is important to know the fate of any ETU which may reach the environment. Field experiments with maneb (manganese ethylenebisdithiocarbamate) indicated that ETU initially present in the formulation rapidly decreased to undetectable amounts (Yip et al., 1971). In order to determine the effects of physical factors on this disappearance, a laboratory study on the photolysis and hydrolysis of ETU was undertaken. Results presented here include photolysis on a solid substrate (silica gel), photolysis in aqueous solution, and hydrolysis over a 5.0-9.0 p H range. EXPERIMENTAL SECTION

Chemicals. 2-Imidazolidinethione (ETU) was purchased from Eastman Organic Chemicals, Rochester, N . Y., and was recrystallized from 95% ethanol; the material, mp 202-203", was homogeneous by thin-layer chromatographic analysis. Stock solutions containing 1% ETU in methanol and in distilled water were prepared. The 14Clabeled ETU (Niagara Chemical Division, Middleport, N. Y.) with a specijfic activity of 6.59 mCi/mmol was dissolved in methanol a t a 0.01% concentration. Bis(imidaz0lin-2-yl) sulfide was prepared by the method of Johnson and Edens (1941). Photosensitizers were purchased from J. T. Baker Chemical Co., Phillipsburg, N. J.

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H ET17

2-hidazolidone

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H

Elis(imidazo1in-2-yl) sulfide

Determination of ETU. ETU was determined by thinlayer chromatography (tlc) on Brinkmann Silica Gel F-254 Niagara Chemical Division, FMC Corporation, Princeton, New Jersey 013540.

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these conditions. Decomposition of ETU is rapid, particularly in the presence of photosensitizers. Aqueous solutions of ETU undergo a very slow photolysis, which is markedly accelerated by sensitizers. ETU is stable to hydrolysis over the p H range 5.0 to 9.0 a t 90".

precoated plates using ether-methanol (9: 1, v/v); under these conditions ETU has R , = 0.5. Quantitation for amounts between 30 and 100 pg was effected with a chromatogram scanner (Nester/Faust, Newark, Del.) in the fluorescence quench mode. Although a linear response was obtained over this range (Figure l), the absolute value for a given quantity of ETU varied from plate to plate, and the slope of the response could vary with different lots of tlc plates. For these reasons ETU standards were run a t two different levels on each analytical plate in order to establish the appropriate baseline. For determination of ETU a t levels